       subroutine rtout
      
!!    ~ ~ ~ PURPOSE ~ ~ ~
!!    this subroutine summarizes data for reaches

!!    ~ ~ ~ INCOMING VARIABLES ~ ~ ~
!!    name          |units      |definition  
!!    ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
!!    ammonian(:)   |mg N/L     |ammonia concentration in reach
!!    bury          |mg pst     |loss of pesticide from active sediment layer
!!                              |by burial
!!    ch_l2(:)      |km         |length of main channel
!!    ch_w(2,:)     |m          |average width of main channel
!!    chlora(:)     |mg chl-a/L |chlorophyll-a concentration in reach
!!    difus         |mg pst     |diffusion of pesticide from sediment to reach
!!    disolvp(:)    |mg P/L     |dissolved phosphorus concentration in reach
!!    hbactlp(:)    |# cfu/100mL|less persistent bacteria in reach/outflow
!!                              |during hour
!!    hbactp(:)     |# cfu/100mL|persistent bacteria in reach/outflow during
!!                              |hour
!!    hbod(:)       |mg O2/L    |carbonaceous biochemical oxygen demand in
!!                              |reach at end of hour
!!    hchla(:)      |mg chl-a/L |chlorophyll-a concentration in reach at end of
!!                              |hour
!!    hdisox(:)     |mg O2/L    |dissolved oxygen concentration in reach at
!!                              |end of hour
!!    hnh4(:)       |mg N/L     |ammonia concentration in reach at end of hour
!!    hno2(:)       |mg N/L     |nitrite concentration in reach at end of hour
!!    hno3(:)       |mg N/L     |nitrate concentration in reach at end of hour
!!    horgn(:)      |mg N/L     |organic nitrogen concentration in reach at
!!                              |end of hour
!!    horgp(:)      |mg P/L     |organic phosphorus concentration in reach at
!!                              |end of hour
!!    hsedyld(:)    |metric tons|sediment transported out of reach during hour
!!    hsolp(:)      |mg P/L     |dissolved phosphorus concentration in reach at
!!                              |end of hour
!!    hsolpst(:)    |mg pst/m^3 |soluble pesticide concentration in outflow
!!                              |on day
!!    hsorpst(:)    |mg pst/m^3 |sorbed pesticide concentration in outflow
!!                              |on day
!!    hrtwtr(:)     |m^3 H2O    |water leaving reach during hour
!!    ievent      |none          |rainfall/runoff code
!!                               |0 daily rainfall/curve number technique
!!                               |1 sub-daily rainfall/Green&Ampt/hourly
!!                               |  routing
!!                               |3 sub-daily rainfall/Green&Ampt/hourly routing
!!    ihout         |none       |outflow hydrograph location
!!    inum1         |none       |reach number
!!    inum2         |none       |inflow hydrograph location
!!    nitraten(:)   |mg N/L     |nitrate concentration in reach
!!    nitriten(:)   |mg N/L     |nitrite concentration in reach
!!    organicn(:)   |mg N/L     |organic nitrogen concentration in reach
!!    organicp(:)   |mg P/L     |organic phosphorus concentration in reach
!!    rch_bactlp(:) |# cfu/100ml|less persistent bacteria in reach/outflow
!!                              |at end of day
!!    rch_bactp(:)  |# cfu/100ml|persistent bacteria in reach/outflow at end
!!                              |of day
!!    rch_cbod(:)   |mg O2/L    |carbonaceous biochemical oxygen demand in
!!                              |reach
!!    rch_dox(:)    |mg O2/L    |dissolved oxygen concentration in reach
!!    reactb        |mg pst     |amount of pesticide in sediment that is lost
!!                              |through reactions
!!    reactw        |mg pst     |amount of pesticide in reach that is lost
!!                              |through reactions
!!    resuspst      |mg pst     |amount of pesticide moving from sediment to
!!                              |reach due to resuspension
!!    rnum1         |none       |fraction of inflow that is overland flow
!!    rtevp         |m^3 H2O    |evaporation from reach on day
!!    rttlc         |m^3 H2O    |transmission losses from reach on day
!!    rtwtr         |m^3 H2O    |water leaving reach on day
!!    sedpst_act(:) |m          |depth of active sediment layer in reach for
!!                              |pesticide
!!    sedpst_conc(:)|mg/(m**3)  |inital pesticide concentration in river bed
!!                              |sediment
!!    sedrch        |metric tons|sediment transported out of channel
!!                              |during time step
!!    setlpst       |mg pst     |amount of pesticide moving from water to
!!                              |sediment due to settling
!!    solpesto      |mg pst/m^3 |soluble pesticide concentration in outflow
!!                              |on day
!!    sorpesto      |mg pst/m^3 |sorbed pesticide concentration in outflow
!!                              |on day
!!    volatpst      |mg pst     |amount of pesticide in reach lost by
!!                              |volatilization
!!    ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~

!!    ~ ~ ~ OUTGOING VARIABLES ~ ~ ~
!!    name             |units      |definition
!!    ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
!!    hhvaroute(1,:,:) |deg C      |temperature
!!    hhvaroute(2,:,:) |m^3 H2O    |water
!!    hhvaroute(3,:,:) |metric tons|sediment or suspended solid load
!!    hhvaroute(4,:,:) |kg N       |organic nitrogen
!!    hhvaroute(5,:,:) |kg P       |organic phosphorus
!!    hhvaroute(6,:,:) |kg N       |nitrate
!!    hhvaroute(7,:,:) |kg P       |mineral phosphorus
!!    hhvaroute(11,:,:)|mg pst     |pesticide in solution
!!    hhvaroute(12,:,:)|mg pst     |pesticide sorbed to sediment
!!    hhvaroute(13,:,:)|kg         |chlorophyll-a
!!    hhvaroute(16,:,:)|kg         |carbonaceous biological oxygen demand
!!    hhvaroute(17,:,:)|kg         |dissolved oxygen
!!    hhvaroute(18,:,:)|# cfu/100ml|persistent bacteria
!!    hhvaroute(19,:,:)|# cfu/100ml|less persistent bacteria
!!    hhvaroute(20,:,:)|kg         |conservative metal #1
!!    hhvaroute(21,:,:)|kg         |conservative metal #2
!!    hhvaroute(22,:,:)|kg         |conservative metal #3
!!    rchdy(1,:)       |m^3/s      |flow into reach on day
!!    rchdy(2,:)       |m^3/s      |flow out of reach on day
!!    rchdy(3,:)       |m^3/s      |evaporation from reach on day
!!    rchdy(4,:)       |m^3/s      |transmission losses from reach on day
!!    rchdy(5,:)       |metric tons|sediment transported into reach on day
!!    rchdy(6,:)       |metric tons|sediment transported out of reach on day
!!    rchdy(7,:)       |mg/L       |sediment concentration in outflow
!!    rchdy(8,:)       |kg N       |organic N transported into reach on day
!!    rchdy(9,:)       |kg N       |organic N transported out of reach on day
!!    rchdy(10,:)      |kg P       |organic P transported into reach on day
!!    rchdy(11,:)      |kg P       |organic P transported out of reach on day
!!    rchdy(12,:)      |kg N       |nitrate transported into reach on day
!!    rchdy(13,:)      |kg N       |nitrate transported out of reach on day
!!    rchdy(14,:)      |kg N       |ammonia transported into reach on day
!!    rchdy(15,:)      |kg N       |ammonia transported out of reach on day
!!    rchdy(16,:)      |kg N       |nitrite transported into reach on day
!!    rchdy(17,:)      |kg N       |nitrite transported out of reach on day
!!    rchdy(18,:)      |kg P       |soluble P transported into reach on day
!!    rchdy(19,:)      |kg P       |soluble P transported out of reach on day
!!    rchdy(20,:)      |kg chla    |chlorophyll-a transported into reach on day
!!    rchdy(21,:)      |kg chla    |chlorophyll-a transported out of reach on 
!!                                 |day
!!    rchdy(22,:)      |kg O2      |CBOD transported into reach on day
!!    rchdy(23,:)      |kg O2      |CBOD transported out of reach on day
!!    rchdy(24,:)      |kg O2      |dissolved oxygen transported into reach on 
!!                                 |day
!!    rchdy(25,:)      |kg O2      |dissolved oxygen transported out of reach on
!!                                 |day
!!    rchdy(26,:)      |mg pst     |soluble pesticide transported into reach on
!!                                 |day
!!    rchdy(27,:)      |mg pst     |soluble pesticide transported out of reach
!!                                 |on day
!!    rchdy(28,:)      |mg pst     |sorbed pesticide transported into reach on 
!!                                 |day
!!    rchdy(29,:)      |mg pst     |sorbed pesticide transported out of reach on
!!                                 |day
!!    rchdy(30,:)      |mg pst     |amount of pesticide lost through reactions
!!                                 |in reach on day
!!    rchdy(31,:)      |mg pst     |amount of pesticide lost through 
!!                                 |volatilization from reach on day
!!    rchdy(32,:)      |mg pst     |amount of pesticide settling out of reach to
!!                                 |bed sediment on day
!!    rchdy(33,:)      |mg pst     |amount of pesticide resuspended from bed
!!                                 |sediment to reach on day
!!    rchdy(34,:)      |mg pst     |amount of pesticide diffusing from reach to
!!                                 |bed sediment on day
!!    rchdy(35,:)      |mg pst     |amount of pesticide in sediment layer lost 
!!                                 |through reactions on day
!!    rchdy(36,:)      |mg pst     |amount of pesticide in sediment layer lost
!!                                 |through burial on day
!!    rchdy(37,:)      |mg pst     |amount of pesticide stored in river bed
!!                                 |sediments
!!    rchdy(38,:)      |# cfu/100mL|persistent bacteria transported out of reach
!!                                 |on day
!!    rchdy(39,:)      |# cfu/100mL|less persistent bacteria transported out of
!!                                 |reach on day
!!    rchdy(40,:)      |kg         |amount of conservative metal #1 transported
!!                                 |out of reach on day
!!    rchdy(41,:)      |kg         |amount of conservative metal #2 transported
!!                                 |out of reach on day
!!    rchdy(42,:)      |kg         |amount of conservative metal #3 transported
!!                                 |out of reach on day
!!    rchmono(1,:)     |m^3/s      |flow into reach during month
!!    rchmono(2,:)     |m^3/s      |flow out of reach during month
!!    rchmono(3,:)     |metric tons|sediment transported into reach during month
!!    rchmono(4,:)     |metric tons|sediment transported out of reach during 
!!                                 |month
!!    rchmono(5,:)     |mg/L       |sediment concentration in outflow during 
!!                                 |month
!!    rchmono(6,:)     |kg N       |organic N transported into reach during 
!!                                 |month
!!    rchmono(7,:)     |kg N       |organic N transported out of reach during 
!!                                 |month
!!    rchmono(8,:)     |kg P       |organic P transported into reach during 
!!                                 |month
!!    rchmono(9,:)     |kg P       |organic P transported out of reach during
!!                                 |month
!!    rchmono(10,:)    |m^3/s      |evaporation from reach during month
!!    rchmono(11,:)    |m^3/s      |transmission losses from reach during month
!!    rchmono(12,:)    |kg         |conservative metal #1 transported out of
!!                                 |reach during month
!!    rchmono(13,:)    |kg         |conservative metal #2 transported out of
!!                                 |reach during month
!!    rchmono(14,:)    |kg         |conservative metal #3 transported out of
!!                                 |reach during month
!!    rchmono(15,:)    |kg N       |nitrate transported into reach during month
!!    rchmono(16,:)    |kg N       |nitrate transported out of reach during 
!!                                 |month
!!    rchmono(17,:)    |kg P       |soluble P transported into reach during 
!!                                 |month
!!    rchmono(18,:)    |kg P       |soluble P transported out of reach during 
!!                                 |month
!!    rchmono(19,:)    |mg pst     |soluble pesticide transported into reach
!!                                 |during month
!!    rchmono(20,:)    |mg pst     |soluble pesticide transported out of reach
!!                                 |during month
!!    rchmono(21,:)    |mg pst     |sorbed pesticide transported into reach
!!                                 |during month
!!    rchmono(22,:)    |mg pst     |sorbed pesticide transported out of reach
!!                                 |during month
!!    rchmono(23,:)    |mg pst     |amount of pesticide lost through reactions
!!                                 |in reach during month
!!    rchmono(24,:)    |mg pst     |amount of pesticide lost through
!!                                 |volatilization from reach during month
!!    rchmono(25,:)    |mg pst     |amount of pesticide settling out of reach to
!!                                 |bed sediment during month
!!    rchmono(26,:)    |mg pst     |amount of pesticide resuspended from bed
!!                                 |sediment to reach during month
!!    rchmono(27,:)    |mg pst     |amount of pesticide diffusing from reach to
!!                                 |bed sediment during month
!!    rchmono(28,:)    |mg pst     |amount of pesticide in sediment layer lost
!!                                 |through reactions during month
!!    rchmono(29,:)    |mg pst     |amount of pesticide in sediment layer lost
!!                                 |through burial during month
!!    rchmono(30,:)    |kg chla    |chlorophyll-a transported into reach during
!!                                 |month
!!    rchmono(31,:)    |kg chla    |chlorophyll-a transported out of reach 
!!                                 |during month
!!    rchmono(32,:)    |kg N       |ammonia transported into reach during month
!!    rchmono(33,:)    |kg N       |ammonia transported out of reach during 
!!                                 |month
!!    rchmono(34,:)    |kg N       |nitrite transported into reach during month
!!    rchmono(35,:)    |kg N       |nitrite transported out of reach during 
!!                                 |month
!!    rchmono(36,:)    |kg O2      |CBOD transported into reach during month
!!    rchmono(37,:)    |kg O2      |CBOD transported out of reach during month
!!    rchmono(38,:)    |kg O2      |dissolved oxygen transported into reach
!!                                 |during month
!!    rchmono(39,:)    |kg O2      |dissolved oxygen transported out of reach
!!                                 |during month
!!    rchmono(40,:)    |# cfu/100mL|persistent bacteria transported out of reach
!!                                 |during month
!!    rchmono(41,:)    |# cfu/100mL|less persistent bacteria transported out of
!!                                 |reach during month
!!    varoute(2,:)     |m^3 H2O    |water
!!    varoute(3,:)     |metric tons|sediment or suspended solid load
!!    varoute(4,:)     |kg N       |organic nitrogen
!!    varoute(5,:)     |kg P       |organic phosphorus
!!    varoute(6,:)     |kg N       |nitrate
!!    varoute(7,:)     |kg P       |soluble phosphorus
!!    varoute(11,:)    |mg pst     |pesticide in solution
!!    varoute(12,:)    |mg pst     |pesticide sorbed to sediment
!!    varoute(13,:)    |kg         |chlorophyll-a
!!    varoute(14,:)    |kg N       |ammonia
!!    varoute(15,:)    |kg N       |nitrite
!!    varoute(16,:)    |kg         |carbonaceous biological oxygen demand
!!    varoute(17,:)    |kg         |dissolved oxygen
!!    varoute(18,:)    |# cfu/100mL|persistent bacteria
!!    varoute(19,:)    |# cfu/100mL|less persistent bacteria
!!    varoute(20,:)    |kg         |conservative metal #1
!!    varoute(21,:)    |kg         |conservative metal #2
!!    varoute(22,:)    |kg         |conservative metal #3
!!    ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~

!!    ~ ~ ~ LOCAL DEFINITIONS ~ ~ ~
!!    name        |units         |definition
!!    ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
!!    bedvol      |m^3           |volume of river bed sediment
!!    ii          |none          |counter
!!    jrch        |none          |reach number
!!    sedcon      |mg/L          |sediment concentration in outflow
!!    sedpest     |mg pst        |pesticide in river bed sediment
!!    ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~

!!    ~ ~ ~ ~ ~ ~ END SPECIFICATIONS ~ ~ ~ ~ ~ ~

      use parm
      implicit none

      integer :: jrch, ii
      real*8 :: sedcon, bedvol, sedpest, wtmp

      jrch = 0
      jrch = inum1

      wtmp = 0.
      wtmp = 5.0 + 0.75 * tmpav(jrch)
!! set values for routing variables
      varoute(1,ihout) = wtmp
      varoute(2,ihout) = rtwtr
      varoute(3,ihout) = sedrch
      varoute(8,ihout) = 0.
      varoute(9,ihout) = 0.
      varoute(10,ihout) = 0.
      varoute(18,ihout) = rch_bactp(jrch)
      varoute(19,ihout) = rch_bactlp(jrch)
      varoute(20,ihout) = varoute(20,inum2) * (1. - rnum1)
      varoute(21,ihout) = varoute(21,inum2) * (1. - rnum1)
      varoute(22,ihout) = varoute(22,inum2) * (1. - rnum1)
!!    sediment routing
      varoute(23,ihout) = rch_san
      varoute(24,ihout) = rch_sil
      varoute(25,ihout) = rch_cla
      varoute(26,ihout) = rch_sag
      varoute(27,ihout) = rch_lag
      varoute(28,ihout) = rch_gra
      if (ievent == 0) then
       varoute(4,ihout) = organicn(jrch) * rtwtr / 1000. + ch_orgn(jrch)
       varoute(5,ihout) = organicp(jrch) * rtwtr / 1000. + ch_orgp(jrch)
       varoute(6,ihout) = nitraten(jrch) * rtwtr / 1000.
       varoute(7,ihout) = disolvp(jrch) * rtwtr / 1000.
       varoute(11,ihout) = solpesto * rtwtr
       varoute(12,ihout) = sorpesto * rtwtr
       varoute(13,ihout) = chlora(jrch) * rtwtr / 1000.
       varoute(14,ihout) = ammonian(jrch) * rtwtr / 1000.
       varoute(15,ihout) = nitriten(jrch) * rtwtr / 1000.
       varoute(16,ihout) = rch_cbod(jrch) *  rtwtr/ 1000.
       varoute(17,ihout) = rch_dox(jrch) *  rtwtr/ 1000.
      else
       do ii = 1, nstep 
          hhvaroute(2,ihout,ii) = hrtwtr(ii)     ! urban modeling by J.Jeong
          hhvaroute(3,ihout,ii) = hsedyld(ii)  ! urban modeling by J.Jeong 

	! From this point, check each variables if it is simulated at subdaily interval before using the output - Jaehak 9/11/09
         hhvaroute(1,ihout,ii) = 0.
!          hhvaroute(2,ihout,ii) = hrtwtr(ii)
!          hhvaroute(3,ihout,ii) = hsedyld(ii)
          hhvaroute(4,ihout,ii) = horgn(ii) * hrtwtr(ii) / 1000.
          hhvaroute(5,ihout,ii) = horgp(ii) *  hrtwtr(ii) / 1000.
          hhvaroute(6,ihout,ii) = hno3(ii) * hrtwtr(ii) / 1000.
          hhvaroute(7,ihout,ii) = hsolp(ii) * hrtwtr(ii) / 1000.
          hhvaroute(8,ihout,ii) = 0.
          hhvaroute(9,ihout,ii) = 0.
          hhvaroute(10,ihout,ii) = 0.
          hhvaroute(11,ihout,ii) = hsolpst(ii) * hrtwtr(ii)
          hhvaroute(12,ihout,ii) = hsorpst(ii) * hrtwtr(ii)
          hhvaroute(13,ihout,ii) = hchla(ii) * hrtwtr(ii) / 1000.
          hhvaroute(14,ihout,ii) = hnh4(ii) * hrtwtr(ii) / 1000.
          hhvaroute(15,ihout,ii) = hno2(ii) * hrtwtr(ii) / 1000.
          hhvaroute(16,ihout,ii) = hbod(ii) *  hrtwtr(ii)/ 1000.
          hhvaroute(17,ihout,ii) = hdisox(ii) *  hrtwtr(ii)/ 1000.
          hhvaroute(18,ihout,ii) = hbactp(ii)
          hhvaroute(19,ihout,ii) = hbactlp(ii)
          hhvaroute(20,ihout,ii) = hhvaroute(20,inum2,ii) * (1. - rnum1)
          hhvaroute(21,ihout,ii) = hhvaroute(21,inum2,ii) * (1. - rnum1)
          hhvaroute(22,ihout,ii) = hhvaroute(22,inum2,ii) * (1. - rnum1)

          varoute(4,ihout) = varoute(4,ihout) + hhvaroute(4,ihout,ii)
          varoute(5,ihout) = varoute(5,ihout) + hhvaroute(5,ihout,ii)
          varoute(6,ihout) = varoute(6,ihout) + hhvaroute(6,ihout,ii)
          varoute(7,ihout) = varoute(7,ihout) + hhvaroute(7,ihout,ii)
          varoute(11,ihout) = varoute(11,ihout) + hhvaroute(11,ihout,ii)
          varoute(12,ihout) = varoute(12,ihout) + hhvaroute(12,ihout,ii)
          varoute(13,ihout) = varoute(13,ihout) + hhvaroute(13,ihout,ii)
          varoute(14,ihout) = varoute(14,ihout) + hhvaroute(14,ihout,ii)
          varoute(15,ihout) = varoute(15,ihout) + hhvaroute(15,ihout,ii)
          varoute(16,ihout) = varoute(16,ihout) + hhvaroute(16,ihout,ii)
          varoute(17,ihout) = varoute(17,ihout) + hhvaroute(17,ihout,ii)
        end do
      end if

!! set subdaily reach output    - by jaehak jeong for urban project, subdaily output in output.rch file
	if (ievent==1.and.iprint==3) then
	  do ii=1,nstep
!! determine sediment concentration in outflow
          sedcon = 0.
          if (hrtwtr(ii) > 0.01) then
            sedcon = hsedyld(ii) / hrtwtr(ii) * 1.e6
          else
            sedcon = 0.
          end if
          rchhr(1,jrch,ii) = hhvaroute(2,inum2,ii) * (1. - rnum1)!!flow in (m^3/s)
     &      / (idt * 60.)		       
          rchhr(2,jrch,ii) = hrtwtr(ii) / (idt * 60.)            !!flow out (m^3/s)
          rchhr(3,jrch,ii) = hrtevp(ii) / (idt * 60.)            !!evap (m^3/s)
          rchhr(4,jrch,ii) = hrttlc(ii) / (idt * 60.)            !!tloss (m^3/s)
          rchhr(5,jrch,ii) = hhvaroute(3,inum2,ii) * (1. - rnum1)   !!sed in (tons)
          rchhr(6,jrch,ii) = hsedyld(ii)                         !!sed out (tons)
          rchhr(7,jrch,ii) = sedcon						       !!sed conc (mg/L)
	  end do
	endif

!! determine sediment concentration in outflow
      sedcon = 0.
      if (rtwtr > 0.01) then
        sedcon = sedrch / rtwtr * 1.e6
      else
        sedcon = 0.
      end if
      if (sedcon > 200000.) sedcon = 200000.

!! determine amount of pesticide in river bed sediments
      bedvol = 0.
      sedpest = 0.
      bedvol = ch_w(2,jrch) * ch_l2(jrch) * 1000. * sedpst_act(jrch)
      sedpest = sedpst_conc(jrch) * bedvol

!! set daily reach output
      rchdy(1,jrch) = varoute(2,inum2) * (1. - rnum1) / 86400. !!flow in (m^3/s)
      rchdy(2,jrch) = rtwtr / 86400. !!flow out (m^3/s)

      rchdy(3,jrch) = rtevp / 86400.                     !!evap (m^3/s)
      rchdy(4,jrch) = rttlc / 86400.                     !!tloss (m^3/s)
      rchdy(5,jrch) = varoute(3,inum2) * (1. - rnum1)    !!sed in (tons)
      rchdy(6,jrch) = sedrch                             !!sed out (tons)
      rchdy(7,jrch) = sedcon                             !!sed conc (mg/L)
      rchdy(8,jrch) = varoute(4,inum2) * (1. - rnum1)    !!orgN in (kg N)
      rchdy(9,jrch) = varoute(4,ihout)                   !!orgN out (kg N)
      rchdy(10,jrch) = varoute(5,inum2) * (1. - rnum1)   !!orgP in (kg P)
      rchdy(11,jrch) = varoute(5,ihout)                  !!orgP out (kg P)
      rchdy(12,jrch) = varoute(6,inum2) * (1. - rnum1)   !!NO3 in (kg N)
      rchdy(13,jrch) = varoute(6,ihout)                  !!NO3 out (kg N)
      rchdy(14,jrch) = varoute(14,inum2) * (1. - rnum1)  !!NH4 in (kg)
      rchdy(15,jrch) = varoute(14,ihout)                 !!NH4 out (kg)
      rchdy(16,jrch) = varoute(15,inum2) * (1. - rnum1)  !!NO2 in (kg)
      rchdy(17,jrch) = varoute(15,ihout)                 !!NO2 out (kg)
      rchdy(18,jrch) = varoute(7,inum2) * (1. - rnum1)   !!solP in (kg P)
      rchdy(19,jrch) = varoute(7,ihout)                  !!solP out (kg P)
      rchdy(20,jrch) = varoute(13,inum2) * (1. - rnum1)  !!chl-a in (kg)
      rchdy(21,jrch) = varoute(13,ihout)                 !!chl-a out (kg)
      rchdy(22,jrch) = varoute(16,inum2) * (1. - rnum1)  !!CBOD in (kg)
      rchdy(23,jrch) = varoute(16,ihout)                 !!CBOD out (kg)
      rchdy(24,jrch) = varoute(17,inum2) * (1. - rnum1)  !!dis O2 in (kg)
      rchdy(25,jrch) = varoute(17,ihout)                 !!dis O2 out (kg)
      rchdy(26,jrch) = varoute(11,inum2) * (1. - rnum1)  !!solpst in (mg pst)
      rchdy(27,jrch) = varoute(11,ihout)                 !!solpst out (mg pst)
      rchdy(28,jrch) = varoute(12,inum2) * (1. - rnum1)  !!srbpst in (mg pst)
      rchdy(29,jrch) = varoute(12,ihout)                 !!srbpst out (mg pst)
      rchdy(30,jrch) = reactw                            !!reacted pst (mg pst)
      rchdy(31,jrch) = volatpst                          !!volatilized pst (mg)
      rchdy(32,jrch) = setlpst                           !!pst settling (mg pst)
      rchdy(33,jrch) = resuspst                          !!pst resuspension (mg)
      rchdy(34,jrch) = -difus                            !!pst diffuse to sed mg
      rchdy(35,jrch) = reactb                            !!react pst/sed (mg)
      rchdy(36,jrch) = bury                              !!pst bury (mg)
      rchdy(37,jrch) = sedpest                           !!pst in rivbed sed mg
      rchdy(38,jrch) = varoute(18,ihout)                 !!persistent bact out
      rchdy(39,jrch) = varoute(19,ihout)                 !!lpersistent bact out
      rchdy(40,jrch) = varoute(20,ihout)                 !!cmetal #1
      rchdy(41,jrch) = varoute(21,ihout)                 !!cmetal #2
      rchdy(42,jrch) = varoute(22,ihout)                 !!cmetal #3
      rchdy(60,jrch) = varoute(1,ihout)                  !!water temp deg c
!!    sediment routing 
!!    Assumed all silt for default sediment routine
!!    For other sediment routing models particle size are tracked
       if (ch_eqn(jrch) .NE. 0) then
       rchdy(43,jrch) = varoute(23,inum2) * (1. - rnum1)  !!sand in   
       rchdy(44,jrch) = varoute(23,ihout)                 !!sand out   
       rchdy(45,jrch) = varoute(24,inum2) * (1. - rnum1)  !!silt in    
       rchdy(46,jrch) = varoute(24,ihout)                 !!silt out   
       rchdy(47,jrch) = varoute(25,inum2) * (1. - rnum1)  !!clay in    
       rchdy(48,jrch) = varoute(25,ihout)                 !!clay out   
       rchdy(49,jrch) = varoute(26,inum2) * (1. - rnum1)  !!sm ag in   
       rchdy(50,jrch) = varoute(26,ihout)                 !!sm ag out 
       rchdy(51,jrch) = varoute(27,inum2) * (1. - rnum1)  !!lg ag in  
       rchdy(52,jrch) = varoute(27,ihout)                 !!lg ag out  
       rchdy(53,jrch) = varoute(28,inum2) * (1. - rnum1)  !!gravel in
       rchdy(54,jrch) = varoute(28,ihout)                 !!gravel out
	 else
       rchdy(43,jrch) = 0.                 !!sand in   
       rchdy(44,jrch) = 0.                 !!sand out   
       rchdy(45,jrch) = varoute(3,inum2) * (1. - rnum1)   !!silt in    
       rchdy(46,jrch) = varoute(3,ihout)                  !!silt out   
       rchdy(47,jrch) = 0.                 !!clay in    
       rchdy(48,jrch) = 0.                 !!clay out   
       rchdy(49,jrch) = 0.                 !!sm ag in   
       rchdy(50,jrch) = 0.                 !!sm ag out 
       rchdy(51,jrch) = 0.                 !!lg ag in  
       rchdy(52,jrch) = 0.                 !!lg ag out  
       rchdy(53,jrch) = 0.                 !!gravel in
       rchdy(54,jrch) = 0.                 !!gravel out
       end if

!! summarize monthly reach output
      rchmono(1,jrch) = rchmono(1,jrch) + rchdy(1,jrch)
      rchmono(2,jrch) = rchmono(2,jrch) + rchdy(2,jrch)
      rchmono(3,jrch) = rchmono(3,jrch) + rchdy(5,jrch)
      rchmono(4,jrch) = rchmono(4,jrch) + rchdy(6,jrch)
      rchmono(5,jrch) = rchmono(5,jrch) + rchdy(7,jrch)
      rchmono(6,jrch) = rchmono(6,jrch) + rchdy(8,jrch)
      rchmono(7,jrch) = rchmono(7,jrch) + rchdy(9,jrch)
      rchmono(8,jrch) = rchmono(8,jrch) + rchdy(10,jrch)
      rchmono(9,jrch) = rchmono(9,jrch) + rchdy(11,jrch)
      rchmono(10,jrch) = rchmono(10,jrch) + rchdy(3,jrch)
      rchmono(11,jrch) = rchmono(11,jrch) + rchdy(4,jrch)
      rchmono(12,jrch) = rchmono(12,jrch) + rchdy(40,jrch)
      rchmono(13,jrch) = rchmono(13,jrch) + rchdy(41,jrch)
      rchmono(14,jrch) = rchmono(14,jrch) + rchdy(42,jrch)
      rchmono(15,jrch) = rchmono(15,jrch) + rchdy(12,jrch)
      rchmono(16,jrch) = rchmono(16,jrch) + rchdy(13,jrch)
      rchmono(17,jrch) = rchmono(17,jrch) + rchdy(18,jrch)
      rchmono(18,jrch) = rchmono(18,jrch) + rchdy(19,jrch)
      rchmono(19,jrch) = rchmono(19,jrch) + rchdy(26,jrch)
      rchmono(20,jrch) = rchmono(20,jrch) + rchdy(27,jrch)
      rchmono(21,jrch) = rchmono(21,jrch) + rchdy(28,jrch)
      rchmono(22,jrch) = rchmono(22,jrch) + rchdy(29,jrch)
      rchmono(23,jrch) = rchmono(23,jrch) + rchdy(30,jrch)
      rchmono(24,jrch) = rchmono(24,jrch) + rchdy(31,jrch)
      rchmono(25,jrch) = rchmono(25,jrch) + rchdy(32,jrch)
      rchmono(26,jrch) = rchmono(26,jrch) + rchdy(33,jrch)
      rchmono(27,jrch) = rchmono(27,jrch) + rchdy(34,jrch)
      rchmono(28,jrch) = rchmono(28,jrch) + rchdy(35,jrch)
      rchmono(29,jrch) = rchmono(29,jrch) + rchdy(36,jrch)
      rchmono(30,jrch) = rchmono(30,jrch) + rchdy(20,jrch)
      rchmono(31,jrch) = rchmono(31,jrch) + rchdy(21,jrch)
      rchmono(32,jrch) = rchmono(32,jrch) + rchdy(14,jrch)
      rchmono(33,jrch) = rchmono(33,jrch) + rchdy(15,jrch)
      rchmono(34,jrch) = rchmono(34,jrch) + rchdy(16,jrch)
      rchmono(35,jrch) = rchmono(35,jrch) + rchdy(17,jrch)
      rchmono(36,jrch) = rchmono(36,jrch) + rchdy(22,jrch)
      rchmono(37,jrch) = rchmono(37,jrch) + rchdy(23,jrch)
      rchmono(38,jrch) = rchmono(38,jrch) + rchdy(24,jrch)
      rchmono(39,jrch) = rchmono(39,jrch) + rchdy(25,jrch)
      rchmono(40,jrch) = rchmono(40,jrch) + rchdy(38,jrch)
      rchmono(41,jrch) = rchmono(41,jrch) + rchdy(39,jrch)
!!    sediment routing
       rchmono(42,jrch) = rchmono(42,jrch) + rchdy(43,jrch)
       rchmono(43,jrch) = rchmono(43,jrch) + rchdy(44,jrch)
       rchmono(44,jrch) = rchmono(44,jrch) + rchdy(45,jrch)
       rchmono(45,jrch) = rchmono(45,jrch) + rchdy(46,jrch)
       rchmono(46,jrch) = rchmono(46,jrch) + rchdy(47,jrch)
       rchmono(47,jrch) = rchmono(47,jrch) + rchdy(48,jrch)
       rchmono(48,jrch) = rchmono(48,jrch) + rchdy(49,jrch)
       rchmono(49,jrch) = rchmono(49,jrch) + rchdy(50,jrch)
       rchmono(50,jrch) = rchmono(50,jrch) + rchdy(51,jrch)
       rchmono(51,jrch) = rchmono(51,jrch) + rchdy(52,jrch)
       rchmono(52,jrch) = rchmono(52,jrch) + rchdy(53,jrch)
       rchmono(53,jrch) = rchmono(53,jrch) + rchdy(54,jrch)
       rchmono(54,jrch) = rchmono(54,jrch) + rchdy(55,jrch)
       rchmono(55,jrch) = rchmono(55,jrch) + rchdy(56,jrch)
       rchmono(56,jrch) = rchmono(56,jrch) + rchdy(57,jrch)
       rchmono(57,jrch) = rchmono(57,jrch) + rchdy(58,jrch)
	   rchmono(58,jrch) = rchmono(58,jrch) + rchdy(59,jrch)
      
      return
      end